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Copyright 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc.
Contributed by the Arenaire and Caramel projects, INRIA.

This file is part of the GNU MPFR Library.

The GNU MPFR Library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 3 of the License, or (at your
option) any later version.

The GNU MPFR Library is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public
License for more details.

You should have received a copy of the GNU Lesser General Public License
along with the GNU MPFR Library; see the file COPYING.LESSER.  If not, see
http://www.gnu.org/licenses/ or write to the Free Software Foundation, Inc.,
51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.



                        Installing GNU MPFR
                        ===================

Note: In case of problem, please read this INSTALL file carefully before
reporting a bug, in particular Section "In case of problem" below. Some
problems are due to bad configuration on the user side (not specific to
MPFR).

0. You first need to install GMP. See <http://www.gnu.org/software/gmp/>.
   MPFR requires GMP version 4.1 or later.

1. Extract the files from the archive.

2. It is strongly advised to apply the latest patches (if this has
   not been done yet), e.g.
     wget http://www.mpfr.org/mpfr-3.1.0/patches
     patch -N -Z -p1 < patches
   or
     curl http://www.mpfr.org/mpfr-3.1.0/patches | patch -N -Z -p1

   (Those instructions are for the GNU patch command, for example
    /usr/bin/gpatch on Solaris.)

3. In the MPFR directory, to detect your system, type:
     ./configure
   possibly with options (see below, in particular if this step or
   one of the following fails).
   Note: paths provided in configure options must always be absolute
   (relative paths are not supported).

4. To build the library, type:
     make

   [optional] if you want to tune MPFR for your specific architecture, see
   the section "Tuning MPFR" below. Note that for most common architectures,
   MPFR includes some default tuning parameters which should be near from
   optimal.

5. To check the built library (runs the test files), type:
     make check

6. To install it (default "/usr/local" | see "--prefix" option), type:
     make install

If you installed MPFR (header and library) in directories that are
not searched by default by the compiler and/or linking tools, then,
like with other libraries, you may need to set up some environment
variables such as C_INCLUDE_PATH (to find the header mpfr.h),
LIBRARY_PATH (to find the library), and if the shared library has
been installed, LD_LIBRARY_PATH (before execution) or LD_RUN_PATH
(before linking); this list is not exhaustive and some environment
variables may be specific to your system. "make install" gives some
instructions; please read them. You can also find more information
in the manuals of your compiler and linker. The MPFR FAQ may also
give some information.

Remember that if you have several MPFR (or GMP) versions installed
(e.g., one with the system, and one, newer, by you), you will not
necessarily get a compilation/linking error if a wrong library is
used (e.g., because LD_LIBRARY_PATH has not been set correctly).
But unexpected results may occur.

Under Mac OS X, if the shared library was not installed and you use
Apple's linker (this is the default), you will also need to provide
the -search_paths_first linker flag ("-Wl,-search_paths_first" when
you link via gcc) to make sure that the right library is selected,
as by default, Apple's linker selects a shared library preferably,
even when it is farther in the library paths. We recall that if a
wrong library is selected due to this behavior, unexpected results
may occur.


Building the documentation
==========================

To build the documentation in various formats, you may first need to
install recent versions of some utilities such as texinfo.

* Type "make info" to produce the documentation in the info format.

* Type "make pdf" to produce the documentation in the PDF format.

* Type "make dvi" to produce the documentation in the DVI format.

* Type "make ps" to produce the documentation in the Postscript format.

* Type "make html" to produce the documentation in the HTML format
  (in several pages); if you want only one output HTML file, then
  type "makeinfo --html --no-split mpfr.texi" from the doc directory
  instead.


Building MPFR with internal GMP header files
============================================

MPFR built with internal GMP header files is a bit faster, so you may want
to build it with them. Just do this in step 1:

  ./configure --with-gmp-build=GMPBUILD

where GMPBUILD is the GMP build directory. The needed header files are:
gmp-impl.h, longlong.h and all the necessary headers to use them.

As gmp-impl.h and longlong.h are only in the GMP source directory,
you first need to copy these files to the build directory if it is
different (there may be other workarounds, such as setting $CPPFLAGS
to search the GMP source directory).

Warning: the library obtained in this way may use some internal GMP
symbols, and thus dynamically linking your software with a different
version of GMP might fail, even though it is declared as compatible
by Libtool's versioning system.


Tuning MPFR
===========

For this, you need to build MPFR with a GMP build directory (see above).
In the GMP build directory, you also need to go into the "tune" subdirectory
and type "make speed". This will build the GMP speed library, which is used
by the MPFR tuning mechanism.

Then go back to the MPFR build directory, and type "make tune". This will
build an optimized file "mparam.h" for your specific architecture.


./configure options
===================

--prefix=DIR            installs MPFR headers and library in DIR/include and
                        DIR/lib respectively (the default is "/usr/local").

--with-gmp-include=DIR  assumes that DIR contains gmp.h
--with-gmp-lib=DIR      assumes that DIR contains the GMP library
--with-gmp=DIR          assumes that DIR is where you have installed GMP.
                        same as --with-gmp-lib=DIR/lib
                        and     --with-gmp-include=DIR/include
                        (use either --with-gmp alone or one or both of
                        --with-gmp-lib/--with-gmp-include)
                        Warning! Do not use these options if you have
                        CPPFLAGS and/or LDFLAGS containing a -I or -L
                        option with a directory that contains a GMP
                        header or library file, as these options just
                        add -I and -L options to CPPFLAGS and LDFLAGS
                        *after* the ones that are currently declared,
                        so that DIR will have a lower precedence. Also,
                        this may not work if DIR is a system directory.

--with-gmp-build=DIR    assumes that DIR contains the GMP build directory,
                        and enables the use of GMP internals (see above).
                        Warning! This option and the group of options
                        --with-gmp are mutually exclusive.

--enable-assert         build MPFR with assertions.

--enable-thread-safe    build MPFR as thread safe, using compiler-level
                        Thread Local Storage (TLS). Note: TLS support is
                        roughly tested by configure. If configure detects
                        that TLS does not work (because of the compiler,
                        linker or system libraries), it will output an
                        error message, telling you to build MPFR without
                        thread safe. For instance, though Mac OS X uses
                        GCC, it may not currently support GCC's __thread
                        storage class.

Note: By default, the configure script tries to set CC/CFLAGS to GMP's
ones (this feature needs GMP 4.3.0 or later, or the --with-gmp-build
option). However this is not guaranteed to work as the configure script
does some compiler tests earlier, and the change may be too late. Also,
the values obtained from GMP may be incorrect if GMP has been built
on a different machine. In such a case, the user may need to specify
CC/CFLAGS as explained below.

Run "./configure --help" to see the other options (autoconf default options).


In case of problem
==================

First, look for any warning message in the configure output.

Several documents may help you to solve the problem:
  * this INSTALL file, in particular information given below;
  * the FAQ (either the FAQ.html file distributed with MPFR, or the
    on-line version <http://www.mpfr.org/faq.html>, which may be more
    up-to-date);
  * the MPFR web page for this version <http://www.mpfr.org/mpfr-3.1.0/>,
    which lists bugs found in this version and provides some patches.

If the "configure" fails, please check that the C compiler and its
options are the same as those for the GMP build (specially the ABI).
You can see the latter with the following command:

  grep "^CC\|^CFLAGS" GMPBUILD/Makefile

if the GMP build directory is available. Then type:

  ./configure <configure options> CC=<C compiler> CFLAGS="<compiler options>"

(quotes are needed when there are spaces or other special characters
in the CC/CFLAGS value) and continue the install. On some platforms,
you should provide further options to match those used by GMP, or set
some environment variables. For instance, see the "Notes on AIX/PowerPC"
section below.

Warning! Do NOT use optimization options that can change the semantics
of math operations, such as GCC's -ffast-math or Sun CC's -fast.
Otherwise conversions from/to double's may be incorrect on infinities,
NaN's and signed zeros. Since native FP arithmetic is used in a few
places only, such options would not make MPFR faster anyway.

On some platforms, try with "gmake" (GNU make) instead of "make".
Problems have been reported with the Tru64 make.

If the configure script reports that gmp.h version and libgmp version
are different, or if the build was OK, but the tests failed to link
with GMP or gave an error like

  undefined reference to `__gmp_get_memory_functions'

meaning that the GMP library was not found or a wrong GMP library was
selected by the linker, then your library search paths are probably
not correctly set (some paths are missing or they are specified in an
incorrect order).

Such problems commonly occur under some GNU/Linux machines, where the
default header and library search paths may be inconsistent: GCC is
configured to search /usr/local/include and /usr/local/lib by default,
while the dynamic linker ignores /usr/local/lib. If you have a GMP
version installed in /usr (provided by the OS vendor) and a new one
installed in /usr/local, then the header of the new GMP version and
the library of the old GMP version will be used! The best solution
is to make sure that the dynamic linker configuration is consistent
with GCC's behavior, for instance by having /usr/local/lib in
/etc/ld.so.conf or in some file from /etc/ld.so.conf.d (as Debian
did: http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=395177). See
also http://gcc.gnu.org/ml/gcc-help/2010-01/msg00171.html for more
information. Alternatively you can use:
  * environment variables. This may sometimes be necessary. If DIR
    is the installation directory of GMP, add DIR/include to your
    CPATH or C_INCLUDE_PATH (for compilers other than GCC, please
    check the manual of your compiler), and add DIR/lib to your
    LIBRARY_PATH and LD_LIBRARY_PATH (and/or LD_RUN_PATH);
  * --with-gmp* configure options (described above), e.g.
    --with-gmp=/opt/local (to use /opt/local/include for headers and
    /opt/local/lib for libraries), but other software that uses GMP
    and/or MPFR will need correct paths too, and environment variables
    allow one to set such search paths in a global way.
    Note about "--with-gmp=/usr/local". This option may appear to
    solve the above inconsistency problem, but does not work as you
    expect. Indeed it affects the library search path, in particular,
    the one used by the dynamic linker (thus adding the missing
    /usr/local/lib directory as wanted), but since /usr/local/include
    is a "standard system include directory" for GCC, the include
    search patch is not changed; this is often not a problem in this
    particular case because usually, /usr/local/include is already
    last in the include search patch, but this may fail under some
    occasions and may trigger obscure errors.

For instance, under Unix, where paths are separated by a colon:

  * With POSIX sh-compatible shells (e.g. sh, ksh, bash, zsh):
    export C_INCLUDE_PATH="/usr/local/include:/other/path/include"
    export LIBRARY_PATH="/usr/local/lib:/other/path/lib"
    export LD_LIBRARY_PATH="$LIBRARY_PATH"

  * With csh or tcsh:
    setenv C_INCLUDE_PATH "/usr/local/include:/other/path/include"
    setenv LIBRARY_PATH "/usr/local/lib:/other/path/lib"
    setenv LD_LIBRARY_PATH "$LIBRARY_PATH"

If you can't solve your problem, you should contact us at <mpfr@loria.fr>,
indicating the machine and operating system used (uname -a), the compiler
and version used (gcc -v if you use gcc), the configure options used if
any (including variables such as CC and CFLAGS), the version of GMP and
MPFR used, and a description of the problem encountered. Please send us
also the log of the "configure" (config.log).

Note that even if you can build MPFR with a C++ compiler, you can't run
the test suite: C and C++ are not the same language! You should use a C
compiler instead.


Notes on Mac OS X
=================

If you get an error of the form

  ld: pointer in read-only segment not allowed in slidable image...

this can mean that the link is done against a static (GMP) library.
In such a case, you should configure MPFR with --disable-shared to
disable the build of the shared library.


Notes on FreeBSD 4.3
====================

FreeBSD 4.3 is provided with an incorrect <float.h> header file, and
MPFR tests related to long double's may fail. If you cannot upgrade
the system, you can still use MPFR with FreeBSD 4.3, but you should
not use conversions with the long double type.


Notes on AIX/PowerPC
====================

The following has been tested on AIX 5.3 (powerpc-ibm-aix5.3.0.0) with
gcc 3.3.2 and GMP 4.2.1.

If GMP was built with the 64-bit ABI, before building and testing MPFR,
you should set the OBJECT_MODE environment variable to 64, e.g., with:

  export OBJECT_MODE=64

(in a sh-compatible shell). But you should also provide a correct CFLAGS
value to the "configure" script: using --with-gmp-build is not sufficient
due to the early compiler tests, as gcc will not compile any program if
OBJECT_MODE is 64 and the -maix64 option is not provided.


MPFR for use with 32-bit Windows Applications (win32)
=====================================================

There are several ways of building MPFR on Windows, the most appropriate
approach depending on how you intend to use the resulting libraries.

a. Using MinGW
==============

1 - We advise to use MinGW (http://www.mingw.org/), which is simpler and
    less demanding than Cygwin. Contrary to Cygwin, it also provides native
    Windows code.

2 - If you just want to make a binary with gcc, there is nothing to do:
    GMP, MPFR and the program compile exactly as under Linux.
    But if you want to generate a library for MinGW from a Cygwin
    environment, you may need the -mno-cygwin gcc option (otherwise
    a typical error is _P_WAIT being undeclared).

3 - If you want to make libraries work under another Windows compiler
    like Visual C / C++, since the unix-like *.a library files are compatible
    with Windows *.lib files, you can simply rename all *.a libraries to *.lib.

    With gmp-4.1.3, the only remaining problem seems to be the "alloca" calls
    in GMP. Configuring GMP and MPFR with --enable-alloca=malloc-reentrant
    should work (if you build MPFR with GMP internal files).

    Or you could add the library
     "$MINGWIN$/lib/gcc-lib/mingw32/$VERSION$/libgcc.a"
    to your project: it contains all the extra-functions needed by a program
    compiled by gcc (division of 64-bit integer, bcopy, alloca...).
    Of course, include it if and only if your compiler is not gcc.

4 - On Windows32 / MinGW, if all the tests fail, try to run the test suite
    with "make check EXEEXT=".

5 - To avoid using the Microsoft runtime (which might not be conform to ISO C),
    you can use the MinGW runtime package (which is an integral part of MinGW).
    For example, with MinGW versions 3.15 and later you can get an
    ISO-compliant printf() if you compile your application with either
    '-ansi', '-posix' or '-D__USE_MINGW_ANSI_STDIO'. For example, you can
    compile and test MPFR with CC="gcc -D__USE_MINGW_ANSI_STDIO".

    For example under Win32, the following problem has been experienced with
    MPFR 2.4.0 RC1 and the MSVC runtime (msvcrt.dll):

       Error in mpfr_vsprintf (s, "%.*Zi, %R*e, %Lf%n", ...);
       expected: "00000010610209857723, -1.2345678875e+07, 0.032258"
       got:      "00000010610209857723, -1.2345678875e+07, -0.000000"
       FAIL: tsprintf.exe

    This error is due to the MSVC runtime not supporting the L length modifier
    for formatted output (e.g. printf with %Lf). You can check this with the
    following program:

       #include <stdio.h>
       int main (void)
       {
         long double d = 1. / 31.;
         printf ("%Lf\n", d);
         return 0;
       }

    The expected output is 0.032258.

    Note: The L modifier has been standard for a long time (it was added
    in ISO C89).

    Note 2: this now works correctly with Visual C++ 2008 and 2010
    (tested on Microsoft (R) 32-bit C/C++ Optimizing Compiler Version
     15.00.21022.08 for 80x86, Microsoft (R) C/C++ Optimizing Compiler
     Version 15.00.21022.08 for x64, Microsoft (R) 32-bit C/C++ Optimizing
     Compiler Version 16.00.30319.01 for 80x86, Microsoft (R) C/C++ Optimizing
     Compiler Version 16.00.30319.01 for x64).


b. Using Cygwin
===============

This build should be similar to that for MinGW except that the resulting
library depends on the Cygwin DLL and cannot therefore be used with
Visual Studio as with MinGW. Indeed, the binaries compiled with Cygwin
require a dynamic library (cygwin.dll) to work; there is a Cygwin option
-mno-cygwin to build native code, but it may require some non-portable tricks.

c. Using Visual C++ 2008/2010
=============================

Win32 versions of the MPFR library can be built using Microsoft Visual
C++ 2008 or 2010 using the build projects available here:

http://gladman.plushost.co.uk/oldsite/computing/gmp4win.php

These build projects contain both win32 and x64 builds but the latter
will give errors if your version of Visual C++ lacks the 64-bit
compiler and tools.   The 32-bit build projects should however work
on Visual C++ 2008, Visual C++ Express 2008 (SP1), Visual C++ 2010
and Visual C++ Express 2010.

MPFR for use with 64-bit Windows Applications (x64)
===================================================

There are two ways of building MPFR for use with 64-bit Windows
applications.

a. Using MinGW64
================

The MinGW64 version of the GCC compiler is now available here:

http://sourceforge.net/projects/mingw-w64/

It can build both GMP and MPFR for 64-bit Windows applications.

b. Using Visual C++ 2008/2010
=============================

x64 versions of the MPFR library can be built using Microsoft Visual
C++ 2008 or 2010 using the build projects available here:

http://gladman.plushost.co.uk/oldsite/computing/gmp4win.php

These build projects contain both win32 and x64 builds but the latter
can only be built if your version of Visual C++ contains the 64-bit
compiler and tools.  On Visual C++ 2008, the 64-bit tools are an
option during installation so if you don't have them you will need
to start the Visual Studio installer and add them to your IDE
configuration.  On Visual C++ 2010 they are installed by default.

As delivered, Visual C++ Express 2008 SP1 cannot build x64 projects
but the Windows SDK can be added to it to allow this. The IDE then
needs to be configured as described here:

http://msdn.microsoft.com/en-us/library/9yb4317s(VS.80).aspx

to allow x64 builds.

Visual C++ Express 2010 requires the Windows 7 SDK to be installed
in order to build x64 projects. This SDK is available here:

http://tinyurl.com/25zz8r6

In this case, once this SDK has been installed, Visual C++ Express 2010
will build x64 projects without further changes.